32nd Conference on Radar Meteorology

P8R.16

Spatial classification of precipitation from operational radar data

C.Z. Van de Beek, Wageningen Univ., Wageningen, Netherlands; and R. Uijlenhoet and I. Holleman

Introduction

Radar reflectivity data is usually converted into precipitation intensities in a fairly straightforward way using a single Z-R relation and therefore not taking into account different precipitating cloud types and their associated different Z-R relations. The proposed algorithm seeks to distinguish between convective and stratiform precipitation types from operational radar products and consequently improve precipitation estimates. The algorithm also offers the opportunity to investigate the relevance of using space-borne radar systems for measurement of precipitation at different spatial- and time scales. Another use would be its function as an operational now-casting product.

The algorithm

The algorithm is comprised of two elements. One is the use of dBZ values to differentiate between convective and stratiform precipitation within a CAPPI. The second is the tracking of clouds and their development through time to again make decisions on what type of precipitation is being remotely sensed by the radar. The algorithm may also include echo top height and lightning intensity products as input for added accuracy.

Current work

The first part of the algorithm uses the work of Steiner et al. (1995) and that of Yuter and Houze (1997) to make a first guess about convective and stratiform areas within the measured precipitation. A summary of the used algorithm is:

The second part tracks the development of precipitating areas through consecutive images. This is not based on other work, but is similar to other cloud tracking algorithms using correlation. Within this part of the algorithm:

Outlook

Literature

Handwerker, J.: Cell tracking with TRACE3D- a new algorithm. Atmospheric Research 61: 15-34. 2001

Mukherjee, D.P. and S. T. Acton: Cloud Tracking by Scale Space Classification. IEEE Transactions on Geoscience and Remote Sensing 40(2): 405-415. 2002

Steiner, M., R.A. Houze and S.E. Yuter: Climatological Characterization of 3-Dimensional Strom Structure from Operational Radar and Rain-Gauge Data. Journal of Applied Meteorology 34(9): 1978-2007. 1995

Yuter, S.E. and R.A. Houze: Measurements of Raindrop Size Distributions over the Pacific Warm Pool and Implications for Z-R Relations. Journal of Applied Meteorology 36(7): 847-867. 1997

extended abstract  Extended Abstract (460K)

Poster Session 8R, Operational radar applications
Thursday, 27 October 2005, 1:15 PM-3:00 PM, Alvarado F and Atria

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